JP2008259078A - Retransmission request transmission method, transmission side apparatus, and reception side apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To process a request to retransmit a final RLC-data-Sub-PDU constituting an RLC-data-PDU by a transmission-side device. <P>SOLUTION: In a retransmission request transmitting method, a reception-side device reports identification information of the RLC-data-PDU and the start position and end position of retransmission in the RLC-data-PDU with a STATUS-PDU (NACK) for the RLC-data-Sub-PDU, and the transmission-side device retransmits the part from the start position of retransmission to the final part in the RLC-data-PDU when a predetermined value is reported as the retransmission end position with the STATUS-PDU (NACK) for the RLC-data-Sub-PDU. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a retransmission request transmission method, a transmission side apparatus, and a reception side apparatus in which a reception side apparatus transmits a retransmission request signal for a packet transmitted from a transmission side apparatus.

  In 3GPP, an organization that standardizes third generation mobile communication systems, LTE (Long Term Evolution) is used to dramatically improve transmission speed and shorten transmission delay in a radio access network (RAN). ), And the standard specifications for the elemental technologies involved in the study are being developed.

  As shown in FIG. 1, a radio access network (E-UTRAN: Evolved Universal Terrestrial RAN) in an LTE mobile communication system includes a mobile station UE (User Equipment), a radio base station eNB (E-UTRAN Node B), and The mobile station UE and the radio base station eNB are configured to perform communication via a radio link (RL: Radio Link).

  Also, the mobile station UE and the radio base station eNB are respectively a PDCP (Packet Data Convergence Protocol) sublayer, an RLC (Radio Link Control) sublayer, a MAC (Medium Access Control) sublayer, a physical (PHY: Physical) layer. Is configured to terminate.

  Further, the transmission side device (mobile station UE or radio base station eNB) sequentially performs PDCP processing, RLC processing, MAC processing, and PHY processing on the data to be transmitted, and then transmits the data as a radio signal in the radio unit. It is configured to.

  On the other hand, the receiving side device (mobile station UE or radio base station eNB) is transmitted by sequentially performing PHY processing, MAC processing, RLC processing, and PDCP processing on the radio signal received by the radio unit. It is configured to extract data.

  Here, the data to be transmitted includes user data (U-plane data) generated by an application used by the user, RRC (Radio Resource Control) signaling used for control of the mobile communication system, NAS (Non Access Stratum) signaling, etc. Control data (C plane data).

  Further, an RLC retransmission control process is performed between the RLC sublayer of the transmission side apparatus and the RLC sublayer of the reception side apparatus, and between the MAC sublayer of the transmission side apparatus and the MAC sublayer of the reception side apparatus. In the configuration, HARQ (Hybrid Automatic Repeat Request) retransmission control processing (MAC retransmission control processing) is performed.

  Hereinafter, with reference to FIG. 9, the RLC retransmission control process studied in the mobile communication system will be described.

  As illustrated in FIG. 9, in step S1001, the RLC sublayer of the transmission side apparatus transmits RLC-data-PDU (initial transmission) with SN = X.

  In step S1002, the RLC sublayer of the reception side apparatus transmits a STATUS-PDU (NACK) that is a retransmission request for the RLC-data-PDU of SN = X.

  In step S1003, the RLC sublayer of the transmission side apparatus performs RLC-data-PDU (initial transmission) of SN = X by re-segmentation processing according to the quality of the radio link between the transmission side apparatus and the reception side apparatus. This is divided into three RLC-data-Sub-PDU # 1 to # 3.

  Here, RLC-data-Sub-PDU includes “SN (sequence number of RLC-data-PDU to which RLC-data-Sub-PDU belongs)” and “SO (RLC-data-PDU-in-LC-data-PDU- Sub-PDU head position) ”is set.

  In the example of FIG. 9, “SN = X, SO = 0” is set in RLC-data-Sub-PDU # 1, and “SN = X, SO = 100 ”, and“ SN = X, SO = 200 ”is set in RLC-data-Sub-PDU # 3.

  The RLC sublayer of the transmission side apparatus transmits RLC-data-Sub-PDU # 1 in step S1004, RLC-data-Sub-PDU # 2 in step S1005, and RLC-data- in step S1006. Sub-PDU # 3 is transmitted.

  Here, the RLC sublayer of the receiving side device has successfully received RLC-data-Sub-PDU # 1 and RLC-data-Sub-PDU # 3 and failed to receive RLC-data-Sub-PDU # 2. In the case (case (A)), in order to request retransmission of RLC-data-Sub-PDU # 2, “SN = X, First Octet (retransmission start position in RLC-data-PDU) = 100 (RLC-data -After one octet of the last position of RLC-data-Sub-PDU # 1 in PDU, that is, the leading position of RLC-data-Sub-PDU # 2 in RLC-data-PDU), Last Octet (RLC- retransmission end position in data-PDU) = 199 (the end of RLC-data-Sub-PDU # 3 in RLC-data-PDU) 1 octet previous position, i.e., to return to generate RLC-data-Sub-PDU # 2 in the last position) "and set STATUS-PDU in the RLC-data-PDU.

  Hereinafter, the second RLC retransmission control process under consideration in the mobile communication system will be described with reference to FIG.

  As shown in FIG. 10, in step S1101, the RLC sublayer of the transmission side apparatus performs RLC− to which SN = X is assigned by the division process according to the quality of the radio link between the transmission side apparatus and the reception side apparatus. The SDU (ie, PDCP-PDU) is divided into three RLC-data-PDUs # 1 to # 3.

  Note that SN = X assigned to RLC-SDU (that is, PDCP-PDU) is assigned in the PDCP sublayer of the transmission side apparatus.

  Here, “SN (sequence number of RLC-SDU to which RLC-data-PDU belongs)” and “SO (start position of RLC-data-PDU in RLC-SDU)” are set in RLC-data-PDU. Is done.

  In the example of FIG. 10, “SN = X, SO = 0” is set in RLC-data-PDU # 1, and “SN = X, SO = 100” is set in RLC-data-PDU # 2. In RLC-data-PDU # 3, “SN = X, SO = 200” is set.

  The RLC sublayer of the transmitting apparatus transmits RLC-data-PDU # 1 in step S1102, transmits RLC-data-PDU # 2 in step S1103, and RLC-data-PDU # 3 in step S1104. Send.

Here, the RLC sublayer of the receiving side apparatus has successfully received RLC-data-PDU # 1 and RLC-data-PDU # 3 and failed to receive RLC-data-PDU # 2 (Case (A)). ), To request retransmission of RLC-data-PDU # 2, “SN = X, First Octet (retransmission start position in RLC-SDU) = 100 (RLC-data-PDU # 1 in RLC-SDU) After one octet of the last position, that is, the leading position of RLC-data-PDU # 2 in RLC-SDU) ”, Last Octet (retransmission end position in RLC-SDU) = 199 (RLC in RLC-SDU) -One octet before the start position of data-PDU # 3, that is, the end of RLC-data-PDU # 2 in the RLC-SDU Position) "and returns generated by the set STATUS-PDU.
RMT specification of IMT-2000: 3GPP TS 25.322 V6.9.0 (2006-09) LTE Stage2 Specification: 3GPP TS 36.300 V8.0.0 (2007-03)

  However, in the RLC retransmission control process in the mobile communication system described above, as shown in FIG. 9 and FIG. 10, the RLC sublayer of the receiving side apparatus receives the RLC-data-Sub-PDU (in the case of FIG. RLC-data-SUB-PDU (in the case of FIG. 10, RLC-data-SUB-PDU), the last position of this RLC-data-Sub-PDU (in the case of FIG. 10, RLC-data-SUB-PDU) RLC-SDU is configured to be specified from the head position of RLC-data-PDU).

  Therefore, the RLC sublayer of the receiving side device is RLC-data-Sub-PDU # 1 (in the case of FIG. 10, RLC-data-PDU # 1) and RLC-data-Sub-PDU # 2 (in the case of FIG. 10). , RLC-data-PDU # 2) and RLC-data-Sub-PDU # 3 (in the case of FIG. 10, RLC-data-PDU # 3) fails (case ( B)), RLC-data-PDU (in the case of FIG. 10, RLC-SDU), the last RLC-data-Sub-PDU (in FIG. 10, RLC-data-PDU) is the RLC-data -Sub-PDU # 3 (in the case of FIG. 10, RLC-data-PDU # 3) includes a subsequent RLC-data-Sub-PDU (in the case of FIG. 10, RLC-data- constituting the RLC-SDU). PDU) Since it does not exist, the RLC sublayer of the receiving side apparatus performs RLC-data-Sub-PDU # 3 (in the case of FIG. 10, RLC-data-PDU-) in the RLC-data-PDU (in the case of FIG. 10, RLC-SDU). There is a problem in that the last position of PDU # 3) cannot be specified, and “Last Octet” cannot be set in STATUS-PDU (NACK).

  Therefore, the present invention has been made in view of the above-described problems, and the last RLC-data-Sub- constituting the RLC-data-PDU (in the case of FIG. 10, RLC-SDU) in the transmission side apparatus. An object of the present invention is to provide a retransmission request transmission method, a transmission side apparatus, and a reception side apparatus that can process a retransmission request for a PDU (in the case of FIG. 10, RLC-data-PDU).

  The first feature of the present invention is that a transmitting side device divides a first packet, which is a data unit to which packet identification information is added, in accordance with the quality of a radio link with a receiving side device, and a plurality of second In a mobile communication system capable of generating and transmitting a packet, the reception side device is a retransmission request transmission method for transmitting a retransmission request signal for a packet transmitted from the transmission side device, wherein the reception side device Starting retransmission of the second packet in the first packet based on the packet identification information of the first packet included in the second packet and the start position of the second packet in the first packet A step of determining a position and a retransmission end position; and the packet identification information of the first packet that the receiving side device requests retransmission to the transmitting side device by the retransmission request signal A step of notifying the transmission side apparatus of a retransmission start position and a retransmission end position in the first packet, and the transmission side apparatus is included in the retransmission request signal received from the reception side apparatus. The portion from the retransmission start position to the retransmission end position in the first packet is retransmitted based on the packet identification information of the first packet and the retransmission start position and retransmission end position in the first packet. The transmission side apparatus retransmits a portion from the retransmission start position to the end in the first packet when a predetermined value is notified as the retransmission end position by the retransmission request signal. Is the gist.

  According to a second aspect of the present invention, a plurality of second packets are generated by dividing a first packet, which is a data unit to which packet identification information is added, according to the quality of a radio link with a receiving-side device. In a mobile communication system capable of transmitting, a transmission side device configured to retransmit a specific packet in response to a retransmission request signal for the specific packet from the reception side device, the transmission side device comprising: Based on the packet identification information of the first packet included in the received retransmission request signal and the retransmission start position and retransmission end position in the first packet, from the retransmission start position in the first packet, When the retransmission request signal is configured to retransmit a portion up to the retransmission end position, and a predetermined value is notified as the retransmission end position, the first It is summarized as that is configured to retransmit a portion from the retransmission start position in the socket to the end.

  A third feature of the present invention is a reception-side device configured to transmit a retransmission request signal for a packet transmitted from a transmission-side device, wherein the transmission-side device communicates with the reception-side device. When the first packet, which is a data unit to which packet identification information is added, is generated and transmitted by generating a plurality of second packets according to the quality of the radio link, the second packet is included in the second packet. A retransmission start position and a retransmission end position in the first packet of the second packet are determined based on the packet identification information of the first packet and the start position of the second packet in the first packet. In response to the retransmission request signal, packet identification information of the first packet requesting retransmission from the transmission side apparatus and the transmission side apparatus in the first packet require retransmission. A retransmission start position and a retransmission end position to be transmitted, and when it is determined that retransmission of a part from the retransmission start position to the last in the first packet should be requested, the retransmission request The gist is that a predetermined value is notified as the retransmission end position by a signal.

  As described above, according to the present invention, in the transmission side apparatus, the last RLC-data-Sub-PDU (in the case of FIG. 10) constituting the RLC-data-PDU (in the case of FIG. 10, RLC-SDU). Can provide a retransmission request transmission method, a transmission side apparatus, and a reception side apparatus that can process a retransmission request for RLC-data-PDU.

(Configuration of mobile communication system according to the first embodiment of the present invention)
With reference to FIG. 1 thru | or FIG. 6, the structure of the mobile communication system which concerns on the 1st Embodiment of this invention is demonstrated.

  In the present embodiment, as shown in FIG. 1, a mobile communication system having an LTE / SAE (System Architecture Evolution) architecture, which is being standardized by 3GPP, will be described as an example. The present invention is not limited to such a mobile communication system, but can be applied to a mobile communication system having other architecture.

  With reference to FIG. 2, a functional configuration of an RLC sublayer in Acknowledge mode (AM) (hereinafter, RLC sublayer) will be described.

  Note that some or all of the functions (modules) constituting the RLC sublayer shown in FIG. 2 may be realized by hardware or software on the IC chip.

  For example, a function (module) that constitutes a MAC sublayer and a physical layer that are generally simple and require high-speed processing on an IC chip is realized by hardware, and RLC that is generally required to perform complicated processing The functions (modules) constituting the sublayer may be configured to be realized by software.

  Further, the function (module) constituting the physical layer, the function (module) constituting the MAC sublayer, and the function (module) constituting the RLC sublayer may be realized on the same IC chip, or may be different from each other. It may be realized on an IC chip.

  Hereinafter, an example of the configuration of the RLC sublayer in the mobile communication system according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 2, the RLC sublayer includes an RLC-SDU buffer 11, a new transmission buffer 12, a division and integration processing unit 13, an ACK waiting buffer 14, a retransmission buffer 15, an RLC-PDU transmission unit 16, Re-division processing unit 17, RLC-PDU transmission unit 18, RLC-control-PDU generation unit 19, RLC-control-PDU buffer 20, demultiplexing unit 31, order correction buffer 32, and reconstruction buffer 33 And an RLC-SDU reconstructing unit 34.

  The RLC-SDU buffer 11 is configured to store the RLC-SDU received from the upper layer.

  The new transmission buffer 12 is configured to copy and store the RLC-SDU stored in the RLC-SDU buffer 11.

  When the data integration opportunity is notified from the MAC sublayer, the division integration processing unit 13 performs division processing or integration processing on the RLC-SDU (or a part thereof) stored in the new transmission buffer 12, It is configured to generate an RLC-PDU having a maximum size within the range of the allowable transmission data amount notified together from the MAC sublayer. At this time, the division integration processing unit 13 assigns a sequence number (packet identification information) to each generated RLC-data-PDU.

  The division integration processing unit 13 is configured to transmit the generated RLC-data-PDU to the RLC-PDU transmission unit 16 and store it in the ACK waiting buffer 14.

  The ACK waiting buffer 14 is an RLC-data-PDU from the division integration processing unit 13, an RLC-data-PDU or RLC-data-Sub-PDU from the retransmission waiting buffer 15, or an RLC- It is configured to store a data-Sub-PDU.

  FIG. 4 shows a format example of RLC-data-PDU used in the mobile communication system according to the present embodiment, and FIG. 5 shows a format of RLC-data-Sub-PDU used in the mobile communication system according to the present embodiment. An example is shown.

  As shown in FIG. 4, the header part of the RLC-data-PDU includes a “Type” field, a “Poll” field, an “Align” field, an “Ext” field, an “SN” field, and an “LI” field. Field.

  Further, as shown in FIG. 5, the header part of the RLC-data-Sub-PDU includes a “Type” field, a “Poll” field, an “LSF (Last Segment Flag)” field, an “SN” field, And an “SO (Segment Offset)” field.

  The “Type” field is a field indicating the type of RLC-PDU. In the “Type” field, for example, RLC-data-PDU, RLC-data-Sub-PDU, RLC-control-PDU, or the like can be set as the type of RLC-PDU.

  The “Poll” field is a field indicating whether or not the RLC sublayer of the reception side apparatus is requested to transmit STATUS-PDU.

  The “Align” field indicates whether the first byte of the RLC-data-PDU is the first byte of the RLC-SDU, and whether the last byte of the RLC-data-PDU is the last byte of the RLC-SDU. It is a field shown about.

  The “Ext” field is a field indicating whether an extension header follows the header portion of the RLC-data-PDU.

  The “SN” field indicates the sequence number of the RLC-data-PDU when included in the RLC-data-PDU, and indicates the RLC-data-Sub when included in the RLC-data-Sub-PDU. -A field indicating the sequence number of the RLC-data-PDU to which the PDU relates.

  The “LI” field is a field indicating the position of the last byte of the RLC-SDU in the “Payload” portion in the RLC-data-PDU.

  The “LSF” field is a field indicating whether or not the RLC-data-Sub-PDU is the last RLC-data-Sub-PDU in the related RLC-data-PDU.

  The “SO” field indicates the first byte of the RLC-data-SUB-PDU to which the first byte of the “Payload” portion of the RLC-data-Sub-PDU relates to the RLC-data-Sub-PDU. It is a field.

  The ACK waiting buffer 14 determines whether or not retransmission is necessary for the stored RLC-data-PDU or RLC-data-Sub-PDU, and determines whether the retransmission is necessary or RLC-data-PDU or The RLC-data-Sub-PDU is configured to be transmitted to the retransmission buffer 15.

  Here, for example, when the ACK waiting buffer 14 receives a STATUS-PDU (NACK) from the RLC sublayer of the receiving side device and a NACK from the MAC sublayer, the stored RLC-data-PDU or RLC- It is determined that it is necessary to retransmit the data-Sub-PDU.

  FIG. 6 shows a format example of STATUS-PDU (NACK) used in the mobile communication system according to the present embodiment.

  As shown in FIG. 6, the STATUS-PDU (NACK) includes a “Type” field, a “Control PDU Type” field, a “Selective NACK SN” field, a “Selective NACK First Octet” field, and a “Selective NACKL NACKL”. And an “Octet” field.

  Here, the STATUS-PDU (NACK) may include a plurality of “Selective NACK First” fields, a “Selective NACK First Octet” field, and a “Selective NACK Last Octet” field.

  The “Control PDU Type” field is a field indicating the type of RLC-control-PDU (such as STATUS-PDU (ACK) or STATUS-PDU (NACK)).

  The “Selective NACK SN” field is a field indicating the sequence number of the RLC-data-PDU that is determined to require RLC retransmission within the reception-side window of the RLC sublayer of the reception-side device.

  The “Selective NACK First Octet” field is a field indicating from which byte (octet) retransmission is required in the RLC-data-PDU specified by the “Selective NACK SN” field.

  The “Selective NACK Last Octet” field is a field that indicates how many bytes (octets) need to be retransmitted in the RLC-data-PDU specified by the “Selective NACK SN” field.

  Here, when a special value (predetermined value) is set in the “Selective NACK Last Octet” field, it indicates that retransmission should be performed to the end in the RLC-data-PDU.

  Here, the ACK waiting buffer 14 includes the value of the “Selective NACK SN” field (identification information of the first packet) included in the STATUS-PDU (NACK) (retransmission request signal) received from the receiving side device, “ Based on the value of the “Selective NACK First Octet” field (the retransmission start position in the first packet) and the value of the “Selective NACK Last Octet” field (the retransmission end position in the first packet), It is configured to determine that it is necessary to retransmit a portion from the retransmission start position to the retransmission end position.

  Note that the ACK waiting buffer 14 has a special value (predetermined value) set in the value of the “Selective NACK Last Octet” field in the STATUS-PDU (NACK) (retransmission request signal) received from the receiving side device ( That is, when a predetermined value is notified as the retransmission end position by the retransmission request signal), it is determined that it is necessary to retransmit the portion from the retransmission start position to the end in the RLC-data-PDU.

  The retransmission buffer 15 is configured to store the RLC-data-PDU and RLC-data-Sub-PDU from the ACK waiting buffer 14.

  When the data transmission opportunity is notified from the MAC sublayer, the RLC-PDU transmission unit 16 transmits the RLC-data-PDU transmitted from the division integration processing unit 13 and the RLC-data-PDU stored in the retransmission buffer 15. Are transmitted to the MAC sublayer.

  Here, the RLC-PDU transmission unit 16 assigns an RLC-control-PDU (STATUS-PDU or the like) stored in the RLC-control-PDU buffer 20 to the RLC-data-PDU to be transmitted. May be configured to generate and transmit an RLC-data-PDU-piggybacked-control-PDU.

  The re-division processing unit 17 determines one RLC-data- stored in the retransmission buffer 15 according to the quality of the radio link, specifically, according to the allowable transmission data amount notified from the MAC sublayer. A plurality of RLC-data-Sub-PDUs (second packets) are generated by dividing a PDU (first packet which is a data unit to which packet identification information (sequence number) is assigned) or RLC-data-Sub-PDU. In other words, the RLC-data-PDU or the RLC-data-Sub-PDU stored in the retransmission buffer 15 is configured to perform re-division processing.

  In the example of FIG. 3, the re-division processing unit 17 divides the RLC-data-PDU (SN = X) into three RLC-data-Sub-PDUs #A to #C at the time of the first retransmission. At the time of the second retransmission, the three RLC-data-Sub-PDUs #A to #C are divided into three RLC-data-Sub-PDUs # A1 to # A3, # B1 to # B3, and # C1 to # C3, respectively. is doing.

  Here, RLC-data-Sub-PDU # A1, # A2, # B1, # B2, # C1, # C2 are the last RLC- constituting RLC-data-PDU #A, #B, #C, respectively. Since it is not a data-Sub-PDU, “0” is set in the “LSF” field, and RLC-data-Sub-PDU # A3, # B3, and # C3 are RLC-data-PDU #A and #B, respectively. , #C is the last RLC-data-Sub-PDU, so “1” is set in the “LSF” field.

  The RLC-PDU transmission unit 18 is configured to transmit the RLC-data-Sub-PDU subjected to the re-division processing by the re-division processing unit 17 to the MAC sub-layer when the data transmission opportunity is notified from the MAC sub-layer. Has been.

  Here, the RLC-PDU transmission unit 18 adds an RLC-control-PDU (STATUS-PDU, etc.) stored in the RLC-control-PDU buffer 20 to the RLC-data-Sub-PDU to be transmitted. By doing so, the RLC-data-Sub-PDU-piggybacked-control-PDU may be generated and transmitted.

  The RLC-control-PDU generation unit 19 is configured to generate a STATUS-PDU (ACK / NACK) in response to the notification from the order correction buffer 32.

  Specifically, the RLC-control-PDU generation unit 19 requests an RLC-data-Sub-PDU that has been successfully received in order to request retransmission of the RLC-data-Sub-PDU that has failed to be received. -In the STATUS-PDU (NACK), the value of the "Selective NACK SN" field (identification information of the first packet) and the value of the "Selective NACK First Octet" field (first The retransmission start position in the packet) and the value of the “Selective NACK Last Octet” field (the retransmission end position in the first packet) are set.

  Note that the RLC-control-PDU generation unit 19 does not receive an RLC-data-Sub-PDU in which “1” is set in the “LSF” field even after a predetermined period of time has elapsed. In the RLC-data-PDU to which the Sub-PDU relates, it is determined that the part from the next byte to the end of the last position of the RLC-data-Sub-PDU that has been successfully received should be retransmitted. , A special value (predetermined value) is set in the “Selective NACK Last Octet” field of STATUS-PDU (NACK).

  The RLC-control-PDU buffer 20 is configured to store the RLC-control-PDU generated by the RLC-control-PDU generation unit 19.

  The demultiplexer 31 extracts the STATUS-PDU from the RLC-PDU received from the MAC sublayer, transfers it to the ACK waiting buffer 14, and extracts the RLC-data-PDU and the RLC-data-Sub-PDU. The data is transferred to the order correction buffer 32.

  The order correction buffer 32 is configured to perform order correction processing on the stored RLC-data-PDU.

  Specifically, the order correction buffer 32 is configured to store RLC-data-PDU (in-sequence) stored in the order of sequence numbers in the reconstruction buffer 33.

  On the other hand, the order correction buffer 32 performs a loss detection process on the RLC-data-PDU using the order correction timer for RLC-data-PDUs (out-of-sequence) that are not stored in the order of the sequence numbers, and is not received. When a loss for the RLC-data-PDU is detected, the RLC-control-PDU generation unit 19 is notified to that effect.

  When the RLC-data-PDU can be constructed from the stored RLC-data-Sub-PDU, the order correction buffer 32 is configured to construct the RLC-data-PDU.

  If the RLC-SDU reconstructing unit 34 can construct the RLC-SDU from the RLC-data-PDU stored in the reconstruction buffer 33, the RLC-SDU reconstructing unit 34 constructs the RLC-SDU and configures the upper layer in order of the sequence number. Configured to send to.

(Operation of the mobile communication system according to the first embodiment of the present invention)
With reference to FIG. 7, the operation of the mobile communication system according to the first embodiment of the present invention will be described.

  As illustrated in FIG. 7, in step S2001, the RLC sublayer of the transmission side apparatus transmits RLC-data-PDU (initial transmission) (first packet) with SN = X. Here, the format shown in FIG. 4 is applied to the format of RLC-data-PDU (initial transmission).

  In step S2002, the RLC sublayer of the receiving apparatus transmits a STATUS-PDU (NACK) that is a retransmission request for the RLC-data-PDU of SN = X.

  In step S2003, the RLC sublayer of the transmission side device performs RLC-data-PDU (initial transmission) of SN = X by re-segmentation processing according to the quality of the radio link between the transmission side device and the reception side device. This is divided into three RLC-data-Sub-PDU # 1 to # 3. Here, the format shown in FIG. 5 is applied to the formats of RLC-data-Sub-PDU # 1 to 3 (retransmission) (second packet).

  Here, RLC-data-Sub-PDU includes “SN (sequence number of RLC-data-PDU to which RLC-data-Sub-PDU belongs)” and “SO (RLC-data-PDU-in-LC-data-PDU- Sub-PDU head position) ”is set.

  In the example of FIG. 7, “SN = X, SO = 0” is set in the RLC-data-Sub-PDU # 1, and “SN = X, SO =” is set in the RLC-data-Sub-PDU # 2. 100 ”, and“ SN = X, SO = 200 ”is set in RLC-data-Sub-PDU # 3.

  The RLC sublayer of the transmitting apparatus transmits RLC-data-Sub-PDU # 1 in step S2004, RLC-data-Sub-PDU # 2 in step S2005, and RLC-data- in step S2006. Sub-PDU # 3 is transmitted.

  Here, the RLC sublayer of the receiving side device successfully receives RLC-data-Sub-PDU # 1 and RLC-data-Sub-PDU # 2, but fails to receive RLC-data-Sub-PDU # 3. Shall.

  Therefore, in step S2007, the RLC sublayer of the receiving-side apparatus performs RLC-data-Sub-PDU (in the example of FIG. 7, RLC-data-Sub-PDU) in which “1” is set in the “LSF” field even after a predetermined period has elapsed. -data-Sub-PDU- # 3) is not received, the RLC-data-Sub-PDU (FIG. 7) that has been successfully received so far in the RLC-data-PDU associated with the RLC-data-Sub-PDU. In the example, it is determined that the part from the next byte to the end of the last position of RLC-data-Sub-PDU # 2) should be retransmitted, and “Selective NACK Last Octet” of STATUS-PDU (NACK) is determined. Set a special value (predetermined value) in the field.

  In step S2008, the RLC sublayer of the reception-side apparatus transmits a STATUS-PDU (NACK) in which a special value (predetermined value) is set in the “Selective NACK Last Octet” field.

  In step S2009, the RLC sublayer of the transmission side apparatus sets a special value (predetermined value) to the value of the “Selective NACK Last Octet” field in the STATUS-PDU (NACK) (retransmission request signal) received from the reception side apparatus. (That is, a predetermined value is notified as the retransmission end position by the retransmission request signal), the retransmission start position in the RLC-data-PDU of SN = X (set in the “Selective NACK Fast Octet” field) From the current position) to the end (in the example of FIG. 7, RLC-data-Sub-PDU # 3) is determined to be retransmitted and retransmitted.

(Operations and effects of the mobile communication system according to the first embodiment of the present invention)
According to the mobile communication system according to the first embodiment of the present invention, as shown in FIG. 7, the RLC sublayer of the receiving side device is RLC-data-Sub-PDU # 1 and RLC-data-Sub-PDU #. 2 is successfully received and reception of RLC-data-Sub-PDU # 3 which is the last RLC-data-Sub-PDU constituting the RLC-data-PDU fails (case (B)) ), By specifying a special value in the “Selective NACK Last Octet” field of STATUS-PDU (NACK) to identify the last position of RLC-data-Sub-PDU # 3 in RLC-data-PDU Can do.

(Modification 1)
Next, Modification 1 of the present invention will be described with reference to FIG. Hereinafter, Modification Example 1 of the present invention will be described focusing on differences from the first embodiment described above.

  As shown in FIG. 8, in step S2101, the RLC sublayer of the transmission side apparatus performs RLC− to which SN = X is assigned by the division process according to the quality of the radio link between the transmission side apparatus and the reception side apparatus. The SDU (ie, PDCP-PDU) (first packet) is divided into three RLC-data-PDU # 1 to 3 (second packet). Here, the format shown in FIG. 5 is applied to the formats of RLC-data-PDU # 1 to 3 (retransmission) (second packet).

  Note that SN = X assigned to RLC-SDU (that is, PDCP-PDU) is assigned in the PDCP sublayer of the transmission side apparatus.

  In addition, “SN (sequence number of RLC-SDU to which RLC-data-PDU belongs)” and “SO (start position of RLC-data-PDU in RLC-SDU)” are set in RLC-data-PDU. The

  In the example of FIG. 8, “SN = X, SO = 0” is set in RLC-data-PDU # 1, and “SN = X, SO = 100” is set in RLC-data-PDU # 2. In RLC-data-PDU # 3, “SN = X, SO = 200” is set.

  The RLC sublayer of the transmission side apparatus transmits RLC-data-PDU # 1 in step S2102, transmits RLC-data-PDU # 2 in step S2103, and RLC-data-PDU # 3 in step S2104. Send.

  Here, it is assumed that the RLC sublayer of the reception side device has successfully received RLC-data-PDU # 1 and RLC-data-PDU # 2, and failed to receive RLC-data-PDU # 3.

  Therefore, in step S2104, the RLC sublayer of the reception-side apparatus performs RLC-data-PDU (in the example of FIG. 8, RLC-data in which “1” is set in the “LSF” field) even after a predetermined period has elapsed. -PDU # 3) is not received, the RLC-data-PDU (in the example of FIG. 8, RLC-data-PDU #) that has been successfully received so far in the RLC-SDU related to the RLC-data-PDU. 2) It is determined that the part from the next byte to the end of the last position of the last position should be retransmitted, and a special value (predetermined value) is set in the “Selective NACK Last Octet” field of STATUS-PDU (NACK).

  In step S2105, the RLC sublayer of the reception-side apparatus transmits STATUS-PDU (NACK) in which a special value (predetermined value) is set in the “Selective NACK Last Octet” field.

  In step S2106, the RLC sublayer of the transmission side apparatus sets a special value (predetermined value) to the value of the “Selective NACK Last Octet” field in the STATUS-PDU (NACK) (retransmission request signal) received from the reception side apparatus. (That is, because a predetermined value is notified as the retransmission end position by the retransmission request signal), the retransmission start position in the RLC-SDU of SN = X (the position set in the “Selective NACK Fast Octet” field) ) To the end (in the example of FIG. 8, RLC-data-PDU # 3) is determined to be retransmitted and retransmitted.

  Although the present invention has been described in detail using the above-described embodiments, it is obvious to those skilled in the art that the present invention is not limited to the embodiments described in this specification. The present invention can be implemented as modified and changed modes without departing from the spirit and scope of the present invention defined by the description of the scope of claims. Accordingly, the description of the present specification is for illustrative purposes and does not have any limiting meaning to the present invention.

It is a figure which shows the protocol layer structure in the radio | wireless access network of the mobile communication system which concerns on the 1st Embodiment of this invention. FIG. 3 is a functional block diagram of an RLC sublayer in the mobile station and the radio base station according to the first embodiment of the present invention. It is a figure for demonstrating the re-division process performed in the RLC sublayer in the mobile station and radio | wireless base station which concerns on the 1st Embodiment of this invention. It is a figure which shows an example of the format of RLC-data-PDU produced | generated by the RLC sublayer in the mobile station and radio | wireless base station which concerns on the 1st Embodiment of this invention. It is a figure which shows an example of the format of RLC-data-Sub-PDU produced | generated by the RLC sublayer in the mobile station and radio | wireless base station which concerns on the 1st Embodiment of this invention. It is a figure which shows an example of the format of STATUS-PDU produced | generated by the RLC sublayer in the mobile station and radio | wireless base station which concerns on the 1st Embodiment of this invention. FIG. 3 is a sequence diagram showing an operation of the mobile communication system according to the first embodiment of the present invention. It is a sequence diagram which shows operation | movement of the mobile communication system which concerns on the modification 1 of this invention. FIG. 3 is a sequence diagram showing an operation of an LTE mobile communication system. FIG. 3 is a sequence diagram showing an operation of an LTE mobile communication system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... RLC-SDU buffer 12 ... New transmission buffer 13 ... Division integration processing unit 14 ... ACK waiting buffer 15 ... Retransmission buffer 16, 18 ... RLC-PDU transmission unit 17 ... Re-division processing unit 19 ... RLC-control-PDU generation unit 20 ... RLC-control-PDU buffer 31 ... Demultiplexing unit 32 ... Order correction buffer 33 ... Reconstruction buffer 34 ... RLC-SDU reconstruction unit

Claims (3)

The transmitting side device may generate and transmit a plurality of second packets by dividing the first packet, which is a data unit to which packet identification information is added, according to the quality of the radio link with the receiving side device. In a mobile communication system capable of transmitting, a retransmission request transmission method in which the reception side device transmits a retransmission request signal for a packet transmitted from the transmission side device,
Based on the packet identification information of the first packet included in the second packet and the start position of the second packet in the first packet, the receiving side device receives the first packet of the second packet. Determining a retransmission start position and a retransmission end position in the packet;
The receiving side device uses the retransmission request signal to request packet identification information of the first packet for requesting retransmission from the transmitting side device, and a retransmission start position for requesting retransmission from the transmitting side device in the first packet; A step of notifying the retransmission end position;
Based on the packet identification information of the first packet included in the retransmission request signal received from the receiving apparatus and the retransmission start position and retransmission end position in the first packet, Retransmitting a part from the retransmission start position to the retransmission end position in the first packet,
The transmission side device retransmits a portion from the retransmission start position to the end in the first packet when a predetermined value is notified as the retransmission end position by the retransmission request signal. Transmission method. In a mobile communication system capable of generating and transmitting a plurality of second packets by dividing a first packet, which is a data unit to which packet identification information is added, according to the quality of a radio link with a receiving side device A transmission side device configured to retransmit the specific packet in response to a retransmission request signal for the specific packet from the reception side device,
Based on the packet identification information of the first packet included in the retransmission request signal received from the receiving side device and the retransmission start position and retransmission end position in the first packet, the It is configured to retransmit the part from the retransmission start position to the retransmission end position,
When a predetermined value is notified as the retransmission end position by the retransmission request signal, the transmission side is configured to retransmit a portion from the retransmission start position to the end in the first packet. apparatus. A receiving side device configured to transmit a retransmission request signal for a packet transmitted from a transmitting side device,
The transmission side device generates a plurality of second packets by dividing the first packet, which is a data unit to which packet identification information is added, according to the quality of the radio link with the reception side device, and transmits the second packet The second packet in the first packet based on the packet identification information of the first packet included in the second packet and the start position of the second packet in the first packet. It is configured to determine a retransmission start position and a retransmission end position,
The retransmission request signal notifies packet identification information of the first packet for requesting retransmission to the transmission side apparatus, and a retransmission start position and retransmission end position for requesting retransmission to the transmission side apparatus in the first packet. Is configured to
When it is determined that retransmission of the part from the retransmission start position to the end in the first packet should be requested, a predetermined value is notified as the retransmission end position by the retransmission request signal. A receiving-side device.

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